机构地区:[1]华北水利水电大学水利学院,郑州450011 [2]犹他大学土木环境学院,盐湖城84112
出 处:《农业机械学报》2016年第6期178-186,共9页Transactions of the Chinese Society for Agricultural Machinery
基 金:国家自然科学基金项目(41401038;51509088;51279064;51579102);河南省高等学校重点科研项目(16A570002)
摘 要:作为最典型的土地利用变化过程之一,城市化进程通过改变该地区的下垫面条件,改变了天然状态下的水文机制,并进而产生一系列水环境问题。低影响开发(LID)的雨洪调控措施通过在源头上消纳径流,被视为解决城市雨洪问题的新方法。通过SWMM(Storm water management model)软件建立模型,对不同重现期降水的典型LID措施截流池、入渗带、透水性路面和生物滞留池进行了模拟。模拟结果表明,各LID措施的调控性能随着降水重现期的不同而产生明显的变化;随着降水量的增大,各措施的洪峰流量消减率及入渗补给率(截流池除外)均有不同程度的下降,但洪峰流量消减量随着降水量的增大而增大,入渗量基本保持不变(截流池除外);当采用相同的表面面积设计时,滞留池的洪峰流量消减性能最好,入渗带的入渗补给性能最好;决定其调控性能最主要的因素本质上为其"有效容积",即各措施所能容纳的水量。Urbanization caused hydrological change and increased stormwater runoff volumes,which led to flooding,erosion and the degradation of instream ecosystem health. Low impact development( LID)options had been proposed as an alternative approach to mimic the natural flow regime by using decentralized designs to control stormwater runoff at the source,rather than at a centralized location in the watershed. Hydrological regulation performances of these LID practices can be influenced by rainfall characteristics,such as rainfall intensity and duration. To evaluate the impacts of different rainfall reappearance periods,rainfall analysis was conducted to determine the rainfall characteristics and SCS II type was selected for the analysis. A modeling approach based on SWMM was described to incorporate these LID practices into an existing hydrological model to estimate the impacts of LID practices on the surface runoff. Results demonstrated that the LID practices led to significant stormwater control for different rainfall reappearance periods. Hydrological regulation performances of the LID practices were varied with rainfall reappearance periods. For LID practices with the same surface area,the detention pond performed the best in reducing peak flow rate, which was followed by infiltration trench,bioretention cell and porous pavement. Detention pond was capable to reduce the peak flow rate of 100-year storm to the value of 10-year storm,indicating significant performances. Differences in peak flow reduction were due to structure differences in the LID practices. For the infiltration regulation performances,infiltration trench had the highest recharge ratio for all the rainfall reappearance periods,followed by bioretention cell and porous pavement. Porous pavement,though made of 100% pervious material,infiltrated small runoff which was limited by the native soil infiltration rate when the rainfall volume exceeded the storage capacity. Deep analysis was conducted to determine the reasons that the LID practices performed
分 类 号:TV213[水利工程—水文学及水资源] S152.7[农业科学—土壤学]
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